Howell,John R.
Thermal radiation: an introduction / by John R. Howell, M. Pinar Mengüc, and Kyle J. Daun. - 1st ed. - Boca Raton, FL : CRC Press, 2023. - xxvi, 449 pages : illus. ; 24 cm.
Includes bibliographical references and index.
1. Why Study Radiation Energy Transfer? - -
2. The Basics of Thermal Radiation. - -
3. Radiative Properties at Interfaces. - -
4. Predicted and Measured Surface Properties. - -
5. Configuration Factors for Diffuse Surfaces. - -
6. Radiation Exchange in Enclosures Bounding Transparent Media. - -
7. Radiation Combined with Boundary Conduction and Convection. - -
8. Properties of Participating Media. - -
9. Radiative Transfer in Participating Media. - -
10. Numerical methods for radiative transfer problems. - -
11. Radiation in Solids, Windows, and Coatings. - -
12. Emerging Areas. - -
Appendix. Radiation Constants and Blackbody Functions.
Thermal Radiation: An Introduction is a complete textbook for a one-semester introductory graduate course on radiative energy transfer. It bridges the gap between a basic introduction and comprehensive coverage of thermal radiation, focusing on insight into radiative transfer as practiced by engineers. Covering radiative transfer among surfaces, with an introduction to the effects of participating media between surfaces, the book includes surface and medium property characteristics and solutions to the radiative transfer equation in simple geometries." -- Provided by publisher.
9781032015316
Heat--Radiation and absorption.
Materials--Thermal properties.
Energy conservation.
Thermal radiation.
Ref 536.3 H83t 2023
Thermal radiation: an introduction / by John R. Howell, M. Pinar Mengüc, and Kyle J. Daun. - 1st ed. - Boca Raton, FL : CRC Press, 2023. - xxvi, 449 pages : illus. ; 24 cm.
Includes bibliographical references and index.
1. Why Study Radiation Energy Transfer? - -
2. The Basics of Thermal Radiation. - -
3. Radiative Properties at Interfaces. - -
4. Predicted and Measured Surface Properties. - -
5. Configuration Factors for Diffuse Surfaces. - -
6. Radiation Exchange in Enclosures Bounding Transparent Media. - -
7. Radiation Combined with Boundary Conduction and Convection. - -
8. Properties of Participating Media. - -
9. Radiative Transfer in Participating Media. - -
10. Numerical methods for radiative transfer problems. - -
11. Radiation in Solids, Windows, and Coatings. - -
12. Emerging Areas. - -
Appendix. Radiation Constants and Blackbody Functions.
Thermal Radiation: An Introduction is a complete textbook for a one-semester introductory graduate course on radiative energy transfer. It bridges the gap between a basic introduction and comprehensive coverage of thermal radiation, focusing on insight into radiative transfer as practiced by engineers. Covering radiative transfer among surfaces, with an introduction to the effects of participating media between surfaces, the book includes surface and medium property characteristics and solutions to the radiative transfer equation in simple geometries." -- Provided by publisher.
9781032015316
Heat--Radiation and absorption.
Materials--Thermal properties.
Energy conservation.
Thermal radiation.
Ref 536.3 H83t 2023